CN201292923Y - Positive and negative rotating axial plunger pump - Google Patents

Abstract

The utility model relates to a reversible axial plunger pump is provided. A cylinder body is fixed at the opening at the rear end of the shell; a valve block is arranged at the rear of the cylinder body and is provided with an extruding chamber communicating with an oil outlet; a drive shaft is supported on the shell and the cylinder body with the shaft body sleeved with a sloping cam plate; the rear end of the sloping cam plate is provided with a rear thrust plate; a plunger passes through a plunger hole on the cylinder body; a skid shoe is sleeved on the ball head at the front end of each plunger and is supported against the rear thrust plate; an oil passing channel is arranged on the plunger, a volume chamber can be communicated with the inner chamber of the shell through the oil passing channel; and the rear port of the volume chamber can be communicated with the extruding chamber. The drive shaft can rotate positively and reversely at any moment without changing the flowing direction of liquid, namely an inlet and an outlet are unchanged. The plunger only slides to and fro, which simplifies the moving complexity of each moving member and reduces rate of abrasion of each moving member. The utility model has the advantages of smart and compact structure, few parts, good manufacturability, low cost, small volume power, light weight, small vibration, little noise, and the like.

Description

Positive and negative rotating axial plunger pump

Technical field

The utility model belongs to the axial piston pump field, especially relates to the clockwise and anticlockwise of a kind of permission transmission shaft, but does not change the liquid medium flow direction, and keeps importing and exporting constant axial piston pump.

Background technique

Axial piston pump is dynamical element and an executive component important in the hydraulic system, is widely used in industrial hydraulic fields such as boats and ships, weaponry, engineering machinery.The conventional axial plunger pump is generally two kinds: a kind of is angle type axial piston pump, is made up of parts such as oil distribution casing, cylinder body, bulb plunger, piston shoes, central shaft, main shaft, housings; Another kind is a cam-type axial piston pump, is made up of parts such as oil distribution casing, cylinder body, bulb plunger, piston shoes, transmission shaft, swash plate, housings.Its principle is: cylinder body is with the rotation of transmission shaft, piston shoes act on the swash plate, make plunger do the variation that axially reciprocating produces enclosed volume along the cylinder body plunger hole, the dispensing window by oil distribution casing sucks liquid medium and the discharge of pressurizeing, and reaches the purpose of required fluid pressure.Adopt the axial piston pump of above conventional construction form to have the following disadvantages:

1, transmission shaft can not carry out clockwise and anticlockwise at any time.

If 2 carry out clockwise and anticlockwise, will change liquid flow direction.

3, there is sliding friction pair at a high speed between oil distribution casing and cylinder body, and has great axial force each other, make oil distribution casing and cylinder body all fragile, occur " burning dish " phenomenon easily.

4, plunger both axially reciprocatingly slided in the cylinder body plunger hole, made the high speed rotary motion around center transmission shaft again, made easily and formed the eccentric wear damage between plunger and cylinder body plunger hole.

5, plunger, piston shoes, cylinder body are all made the high speed rotary motion around center transmission shaft, and inertia is big, and Environmental Conditions is restricted.

6, there is the last lower dead centre of oil distribution casing oil suction and oil extraction window intersection, negative pressure and superpressure can take place, form the impact force of fluid, aggravated the vibration and the noise of pump.

The model utility content

Technical problem to be solved in the utility model is to provide a kind of and realizes the transmission shaft clockwise and anticlockwise and do not change liquid medium flow direction, the constant axial piston pump of maintenance import and export.

The technical solution of the utility model is as follows: a kind of positive and negative rotating axial plunger pump, comprise transmission shaft, housing, swash plate, cylinder body, valve piece, plunger and piston shoes, offer the filler opening that inner chamber with it communicates at the top of housing, offer oil outlet on the valve piece, its key is:

A, described cylinder body are fixed in the open-mouth of housing rear end, at the rear of cylinder body the valve piece are installed, and offer the extrusion chamber that communicates with oil outlet in this valve piece;

B, described transmission shaft are supported on housing and the cylinder body by bearing, and the front end of this transmission shaft passes from the front-end face of housing, suit swash plate on the axle body of transmission shaft, and the rear end of swash plate is provided with the back thrust plate that is in tilted layout;

C, described plunger are arranged in the plunger hole on the cylinder body, and on cylinder body, be circularly and evenly distributed, the front end of each plunger stretches in the inner chamber of housing, suit piston shoes on the bulb of plunger front end, these piston shoes connect with the back thrust plate, admittedly overlap briquetting in plunger front, this briquetting connects by pressure spring and cylinder body;

D, on described plunger, also offered oily passage, the corresponding cavity volume of the oily passage of the mistake of each plunger, this cavity volume can communicate with the inner chamber of housing by the oily passage of the mistake of correspondence, and the switching of crossing oily passage is by sucking check valve assembly control;

The rear port of E, described cavity volume can communicate with the extrusion chamber, and the rear port of this cavity volume extrudes check valve assembly and is arranged in the extrusion chamber by extruding the check valve assembly sealing.

Adopt above technological scheme, liquid medium flows into by filler opening in the inner chamber of housing, and when the suction check valve assembly was in open mode with the extrusion check valve assembly, the inner chamber of housing passed through oily passage and cavity volume successively, can be communicated with the extrusion chamber.Suck check valve assembly and guarantee liquid medium from crossing oily passage to the cavity volume one-way flow, extrude check valve assembly guarantee liquid medium from cavity volume to extruding the chamber one-way flow.Transmission shaft can be done forward and reverse rotation under the drive of power source, when swash plate rotates with transmission shaft, promote each piston shoes by the back thrust plate, the plunger corresponding with piston shoes axially reciprocatingly slided along the cylinder body plunger hole, the cavity volume at plunger rear forms the chamber of a volume circulation change like this, promptly volume enlarge gradually → volume dwindles gradually → volume enlarges gradually → volume dwindles gradually ...When volume enlarged gradually, under the effect of pressure spring spring-back force, corresponding plunger travelled forward, and liquid medium sucks from the import that plunger is crossed oily passage under the effect of cavity volume negative pressure, and stream is through oily passage, washed open to be full of cavity volume after sucking check valve assembly; When cavity volume dwindles gradually, pressure spring is compressed, corresponding plunger moves backward, because the incompressibility of liquid medium, just make the medium pressure liquid in the cavity volume raise, liquid medium in the cavity volume is opened the extrusion check valve assembly, enters into to extrude the chamber, outwards flows out by oil outlet again.Each plunger reciprocatingly slides along with swash plate rotates axially continuously, reaches continuous oil suction and presses oily purpose.

Because when transmission shaft drove the swash plate rotation, cylinder body maintained static, plunger is only done and is endwisely slipped, and does not do around the rotatablely moving of transmission shaft, thereby has simplified the complexity of movement parts motion, has strengthened the reliability of positive and negative rotating axial plunger pump.Simultaneously, offered oily passage on plunger, when transmission shaft carried out clockwise and anticlockwise, liquid medium can not change flow direction yet.

In the place ahead of above-mentioned swash plate preceding thrust plate is set, steel ball and retainer are installed between the vertical surface of this preceding thrust plate and swash plate front end, form bearing structure; Between the inclined-plane of swash plate rear end and back thrust plate, steel ball and retainer are installed also, are formed bearing structure equally, can bear very big axial force like this, strengthened the reliability of the axial force that balance plunger produces.Back thrust plate is in and can have guaranteed the uniform wear of back thrust plate around the floating structure of its axis rotation, and is convenient to repair and replacement.

The oily passage of mistake on the above-mentioned plunger is made up of inclined hole and straight hole, wherein inclined hole is positioned at the root of plunger front end bulb, and the outer end of this inclined hole is on the circumferential surface of plunger, and the inner of inclined hole links to each other with the front end of straight hole, described straight hole distributes along the axis of plunger, and the rear end of straight hole connects the ear end face to plunger.The ball top of the head of plunger front end keeps sphere, and centering does not strengthen the big ability of loading of carrying.

In order to make more compact structure, the straight hole of the oily passage of above-mentioned mistake is pre-small post-large step hole, installs to suck check valve assembly in the enlarged diameter section of this step hole.

For simplified structure, convenient for assembly, and ensure that oily passage is opened, the reliability of closing control to crossing, above-mentioned suction check valve assembly is made of first steel ball, first little spring and spider, wherein spider was fixed in the enlarged diameter section of oily passage straight hole, the rear end of first little spring is sleeved on the spider, the front end of first little spring and first steel ball connect, and the part ball body of described first steel ball embedded in the reduced diameter section of oily passage straight hole.

Front-end face at above-mentioned cylinder body offers number and the corresponding annular groove of plunger hole, and each annular groove is looped around the outside of corresponding plunger hole, and described pressure spring embeds in the annular groove, and the front end of pressure spring stretches out outside the annular groove, and connects with briquetting.The spring-back force that above structure has guaranteed pressure spring in the axial direction, like this plunger endwisely slip more flexible, reliable.

For simplified structure, convenient for assembly, and ensure to cavity volume open, the reliability of closing control, above-mentioned extrusion check valve assembly is made of second steel ball, second little spring and locating stud, wherein locating stud is fixed on the chamber wall that extrudes the chamber, the rear end of second little spring is sleeved on the locating stud, the front end of second little spring and second steel ball connect, and the part ball body of described second steel ball embeds in the cavity volume.

The beneficial effects of the utility model are:

1, transmission shaft can carry out clockwise and anticlockwise at any time.

2, after transmission shaft carries out clockwise and anticlockwise, can not change the liquid flow path direction, i.e. import and export remain unchanged.

3, the end face bearing structure of swash plate and forward and backward thrust plate composition can bear very big axial force, has strengthened the reliability of the axial force of balance plunger generation.

4, plunger only reciprocatingly slides, and does not do around the rotatablely moving of center transmission shaft, and has simplified the complexity of each movement parts motion, has reduced the rate of wear of movement parts.

5, the cylinder body and the housing of big quality connect together, and maintain static, and do not rotate, and have removed the required oil distribution casing of conventional axial plunger pump, have thoroughly solved " burning dish " phenomenon between cylinder body and oil distribution casing.

6, few, the good manufacturability of the ingenious compactness of project organization, part, cost are low, and the specific power volume is little, in light weight, and does not have the dead unit problem up and down of conventional axial plunger pump, does not have the strong impact force in oil distribution casing turnover window place, so vibrate for a short time, noise is low.

7, assembling, convenient disassembly, high-precision part quantity is few, and interchangeability is strong, for ease of maintenaince.

Description of drawings

Fig. 1 is a structural representation of the present utility model.

Fig. 2 is the assembling schematic representation of swash plate and forward and backward thrust plate in the utility model.

Fig. 3 is the structural representation of steel ball and retainer in the utility model.

Fig. 4 is the structural representation of valve piece in the utility model.

Fig. 5 is the A-A sectional view of Fig. 4.

Fig. 6 is the assembling schematic representation of plunger and piston shoes in the utility model.

Fig. 7 is the structural representation that sucks check valve assembly in the model utility and extrude check valve assembly.

Embodiment

The utility model is described in further detail below in conjunction with drawings and Examples:

As Fig. 1, Fig. 4 and shown in Figure 5, housing 2 is the box like structure of rear end opening, offers the filler opening 2a that inner chamber 2b with it communicates at the top of housing 2.The open-mouth of housing 2 rear ends is provided with cylinder body 4, and the rear of cylinder body 4 is provided with valve piece 5, is strained and fixed by equally distributed many hexagon socket head cap screws on the circumference between housing 2, cylinder body 4 and valve piece 5 threes.Offer first relief hole 21 that connects its front/rear end at the center of cylinder body 4, the center of valve piece 5 offers second relief hole 22 that connects with first relief hole 21, the rear port of this second relief hole 22 is sealed by end cap 23, and end cap 23 is by the ear end face of bolt in valve piece 5.

As can be known, the rear end of transmission shaft 1 is stretched in first relief hole 21 from Fig. 1, Fig. 2 and Fig. 3, and is bearing on the cylinder body 4 by needle roller bearing without inner ring.The position of the middle part of transmission shaft 1 before partially is bearing on the housing 2 by needle roller bearing without inner ring, and the front end of transmission shaft 1 passes from the front-end face of housing 2.Position suit swash plate 3 after the middle part of transmission shaft 1 is inclined to one side, this swash plate 3 and transmission shaft 1 spline fitted, both can rotate together.Thrust plate 12 before the place ahead of described swash plate 3 is provided with, and this preceding thrust plate 12 is sleeved on the extended boss of housing 2 front inner wall.Between swash plate 3 and preceding thrust plate 12, be provided with retainer 14, and respectively have three circles on the vertical surface of swash plate 3 front ends and the ear end face of preceding thrust plate 12 by the equally distributed groove of circumference, by three circle steel balls 13 of retainer 14 location and the groove fit on swash plate 3 and the preceding thrust plate 12, form the end face bearing structure.Be provided with back thrust plate 8 at the rear of described swash plate 3, this back thrust plate 8 is sleeved on the center annular boss that inclined-plane, swash plate 3 rear end extends back.Back thrust plate 8 is parallel with the inclined-plane, rear end of swash plate 3, and with respect to the axis tilt of transmission shaft 1, the size at inclination angle is decided according to the flow size.Between swash plate 3 and back thrust plate 8, be provided with retainer, and respectively have three circles on the front-end face of the inclined-plane of swash plate rear end and back thrust plate 8 by the equally distributed groove of circumference, by three circle steel balls of retainer location and the groove fit on swash plate 3 and the back thrust plate 8, also form the end face bearing structure.

As Fig. 1, Fig. 4, Fig. 5 and shown in Figure 6, on cylinder body 4, offer a plurality of by the equally distributed plunger hole of circumference around the periphery of first relief hole 21, each plunger hole connects to the front and rear end of cylinder body 4, and wear plunger 6 in each plunger hole, and the center line of plunger hole parallels with the axis of transmission shaft 1.Front-end face at described cylinder body 4 offers number and the corresponding annular groove of plunger hole, each annular groove is looped around the outside of corresponding plunger hole, be embedded with pressure spring 10 in each annular groove, the front end of this pressure spring 10 stretches out outside the annular groove, and connect with the briquettings 9 of the anterior solid cover of plunger 6, briquetting 9 is arranged in the inner chamber 2b of housing 2.Suit piston shoes 7 on the bulb of plunger 6 front ends, these piston shoes 7 cooperate with the bulb sphere of plunger 6, and piston shoes 7 can rotate freely along plunger ball.The front-end face of described piston shoes 7 connects with the ear end face of back thrust plate 8, under the effect of pressure spring 10 spring-back forces, when swash plate 3 rotates with transmission shaft 1, the ear end face of the front-end face of piston shoes 7 and back thrust plate 8 movingly, can promote to be in axial sliding in the plunger hole of plunger 6 on cylinder body 4, and the inwall stationary fit of the front-end face of preceding thrust plate 12 and housing 2 front ends.

As Fig. 1, Fig. 6 and shown in Figure 7, on each plunger 6, also offered oily passage 6a, this is crossed oily passage 6a and is made up of inclined hole and straight hole, wherein inclined hole is positioned at the root of plunger 6 front end bulbs, the outer end of this inclined hole is on the circumferential surface of plunger 6, the inner of inclined hole links to each other with the front end of straight hole, and described straight hole distributes at the center of plunger 6 and along the axis of plunger 6, and the rear end of straight hole connects to the ear end face of plunger 6.The straight hole of the oily passage 6a of described mistake is pre-small post-large step hole, installs to suck check valve assembly in the enlarged diameter section of this step hole, sucks check valve assembly and controls opening or closing of oily passage 6a.Described suction check valve assembly is made of first steel ball 15, first little spring 16 and spider 17, wherein spider 17 was fixed in the enlarged diameter section of oily passage 6a straight hole, the rear end of first little spring 16 is sleeved on the spider 17, the front end of first little spring 16 and first steel ball 15 connect, and the fraction ball body of described first steel ball 15 embedded in the reduced diameter section of oily passage 6a straight hole.

From Fig. 1, Fig. 4 and Fig. 5 as can be known, be provided with at the rear of each plunger 6 one with cross the corresponding cavity volume A of oily passage 6a, the volume of this cavity volume A endwisely slips and changes with plunger 6, and cavity volume A can communicate with the inner chamber 2b of housing 2 by the oily passage 6a of the mistake of correspondence.When plunger 6 slide rearwardly to limit position, when promptly the ear end face of plunger 6 was concordant with the ear end face of cylinder body 4, the endoporus of inserts 11 was cavity volume A, and described inserts 11 is embedded in the groove of valve piece 5 front ends, and plunger 6 corresponding inserts 11; Except that plunger 6 limit position backward, do not fill full corresponding plunger hole at other position plunger 6, promptly the rear end of plunger hole has a bit of space, and this moment, cavity volume A was made up of the endoporus of this section space and inserts 11.The rear of described each inserts 11 all is equipped with one and extrudes check valve assembly, each extrudes check valve assembly and is arranged in rhombus extrusion chamber 5b, the rear port that extrudes check valve assembly control inserts 11 endoporus opens or closes, and when the rear port of inserts 11 endoporus is opened, extrudes chamber 5b and communicates with cavity volume A.Offer oil outlet 5a at the top of valve piece 5, this oil outlet 5a communicates with extrusion chamber 5b.

From Fig. 1, Fig. 7 further as can be known, described extrusion check valve assembly is made of second steel ball 18, second little spring 19 and locating stud 20, wherein locating stud 20 is fixed on the chamber wall that extrudes chamber 5b, the rear end of second little spring 19 is sleeved on the locating stud 20, the front end of second little spring 19 and second steel ball 18 connect, and the fraction ball body of described second steel ball 18 embeds in the endoporus of inserts 11.

Working principle of the present utility model is as follows:

Liquid medium flows among the inner chamber 2b of housing 2 by filler opening 2a, transmission shaft 1 can be done forward and reverse rotation under the drive of power source, when swash plate 3 rotates with transmission shaft 1, promote each piston shoes 7 by back thrust plate 8, the plunger 6 corresponding with piston shoes 7 axially reciprocatingly slided along cylinder body 4 plunger holes, the cavity volume A at each plunger 6 rear forms the chamber of a volume circulation change like this, promptly volume enlarge gradually → volume dwindles gradually → volume enlarges gradually → volume dwindles gradually ...Motion with a plunger 6 is an example, when corresponding with it cavity volume A volume enlarges gradually, under the effect of pressure spring 10 spring-back forces, plunger 6 travels forward, liquid medium is crossed the import suction of oily passage 6a from plunger under the effect of cavity volume A negative pressure, stream is through oily passage 6a, washes first steel ball 15 open after overcoming the elastic force of first little spring 16, and is full of cavity volume A; When cavity volume A dwindles gradually, pressure spring 10 is compressed, plunger 6 moves backward, because the incompressibility of liquid medium just makes that the medium pressure liquid in the cavity volume A raises, this moment, first steel ball 15 cut out oily passage 6a all the time, and the liquid medium in the cavity volume overcomes the elastic force of second little spring 19, after washing second steel ball 18 open, enter into and extrude chamber 5b, outwards flow out by oil outlet 5a again.Each plunger 6 matches, and axially reciprocatingly slides along with swash plate 3 rotates continuously, thereby has reached continuous oil suction and pressed oily purpose.

Claims (7)

1, a kind of positive and negative rotating axial plunger pump, comprise transmission shaft (1), housing (2), swash plate (3), cylinder body (4), valve piece (5), plunger (6) and piston shoes (7), offer the filler opening (2a) that inner chamber (2b) with it communicates at the top of housing (2), offer oil outlet (5a) on the valve piece (5), it is characterized in that:

A, described cylinder body (4) are fixed in the open-mouth of housing (2) rear end, at the rear of cylinder body (4) valve piece (5) are installed, and offer the extrusion chamber (5b) that communicates with oil outlet (5a) in this valve piece (5);

B, described transmission shaft (1) are supported on housing (2) and the cylinder body (4) by bearing, the front end of this transmission shaft (1) passes from the front-end face of housing (2), suit swash plate (3) on the axle body of transmission shaft (1), the rear end of swash plate (3) are provided with the back thrust plate (8) that is in tilted layout;

C, described plunger (6) are arranged in the plunger hole on the cylinder body (4), and on cylinder body (4), be circularly and evenly distributed, the front end of each plunger (6) stretches in the inner chamber (2b) of housing (2), suit piston shoes (7) on the bulb of plunger (6) front end, these piston shoes (7) connect with back thrust plate (8), admittedly overlap briquetting (9) in the front portion of plunger (6), this briquetting (9) connects by pressure spring (10) and cylinder body (4);

D, on described plunger (6), also offered oily passage (6a), the corresponding cavity volume (A) of the oily passage of mistake (6a) of each plunger (6), this cavity volume (A) can communicate with the inner chamber (2b) of housing (2) by the corresponding oily passage of mistake (6a), and the switching of oily passage (6a) is controlled by sucking check valve assembly excessively;

The rear port of E, described cavity volume (A) can communicate with extrusion chamber (5b), and the rear port of this cavity volume (A) extrudes check valve assembly and is arranged in extrusion chamber (5b) by extruding the check valve assembly sealing.

2, positive and negative rotating axial plunger pump according to claim 1, it is characterized in that: preceding thrust plate (12) is set in the place ahead of described swash plate (3), between the vertical surface of thrust plate (12) and swash plate (3) front end steel ball (13) and retainer (14) are installed before being somebody's turn to do, are formed bearing structure; Between the inclined-plane of swash plate (3) rear end and back thrust plate (8), steel ball and retainer are installed also, are formed bearing structure equally.

3, positive and negative rotating axial plunger pump according to claim 1 and 2, it is characterized in that: the oily passage of mistake (6a) on the described plunger (6) is made up of inclined hole and straight hole, wherein inclined hole is positioned at the root of plunger (6) front end bulb, the outer end of this inclined hole is on the circumferential surface of plunger (6), the inner of inclined hole links to each other with the front end of straight hole, described straight hole distributes along the axis of plunger (6), and the rear end of straight hole connects to the ear end face of plunger (6).

4, positive and negative rotating axial plunger pump according to claim 3 is characterized in that: the straight hole of the oily passage of described mistake (6a) is pre-small post-large step hole, installs to suck check valve assembly in the enlarged diameter section of this step hole.

5, positive and negative rotating axial plunger pump according to claim 4, it is characterized in that: described suction check valve assembly is made of first steel ball (15), first little spring (16) and spider (17), wherein spider (17) was fixed in the enlarged diameter section of oily passage (6a) straight hole, the rear end of first little spring (16) is sleeved on the spider (17), the front end of first little spring (16) and first steel ball (15) connect, and the part ball body of described first steel ball (15) embedded in the reduced diameter section of oily passage (6a) straight hole.

6, positive and negative rotating axial plunger pump according to claim 1, it is characterized in that: the front-end face at described cylinder body (4) offers number and the corresponding annular groove of plunger hole, each annular groove is looped around the outside of corresponding plunger hole, described pressure spring (10) embeds in the annular groove, the front end of pressure spring (10) stretches out outside the annular groove, and connects with briquetting (9).

7, positive and negative rotating axial plunger pump according to claim 1, it is characterized in that: described extrusion check valve assembly is made of second steel ball (18), second little spring (19) and locating stud (20), wherein locating stud (20) is fixed on the chamber wall that extrudes chamber (5b), the rear end of second little spring (19) is sleeved on the locating stud (20), the front end of second little spring (19) and second steel ball (18) connect, and the part ball body of described second steel ball (18) embeds in the cavity volume (A).

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